/* testsuite.c * * Copyright (C) 2006-2022 wolfSSL Inc. * * This file is part of wolfSSL. * * wolfSSL is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * wolfSSL is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1335, USA */ #ifdef HAVE_CONFIG_H #include #endif #include #include #include #include #ifndef SINGLE_THREADED #ifdef OPENSSL_EXTRA #include #endif #include #include #include #include #include #include #ifndef NO_SHA256 void file_test(const char* file, byte* check); #endif #if !defined(NO_WOLFSSL_SERVER) && !defined(NO_WOLFSSL_CLIENT) #ifdef HAVE_STACK_SIZE static THREAD_RETURN simple_test(func_args *args); #else static void simple_test(func_args *args); #endif static int test_tls(func_args* server_args); static void show_ciphers(void); static void cleanup_output(void); static int validate_cleanup_output(void); enum { NUMARGS = 3 }; static const char *outputName; #endif int myoptind = 0; char* myoptarg = NULL; #ifndef NO_TESTSUITE_MAIN_DRIVER static int testsuite_test(int argc, char** argv); int main(int argc, char** argv) { return testsuite_test(argc, argv); } #endif /* NO_TESTSUITE_MAIN_DRIVER */ #ifdef HAVE_STACK_SIZE /* Wrap TLS echo client to free thread locals. */ static void *echoclient_test_wrapper(void* args) { echoclient_test(args); #if defined(HAVE_ECC) && defined(FP_ECC) && defined(HAVE_THREAD_LS) wc_ecc_fp_free(); /* free per thread cache */ #endif return (void *)0; } #endif int testsuite_test(int argc, char** argv) { #if !defined(NO_WOLFSSL_SERVER) && !defined(NO_WOLFSSL_CLIENT) && \ (!defined(WOLF_CRYPTO_CB_ONLY_RSA) && !defined(WOLF_CRYPTO_CB_ONLY_ECC)) func_args server_args; tcp_ready ready; #if !defined(NETOS) THREAD_TYPE serverThread; int ret; #endif #ifndef USE_WINDOWS_API const char *tempDir = NULL; char tempName[128]; int tempName_len; int tempName_Xnum; #else char tempName[] = "fnXXXXXX"; const int tempName_len = 8; const int tempName_Xnum = 6; #endif #ifdef HAVE_STACK_SIZE void *serverThreadStackContext = NULL; #endif #ifndef USE_WINDOWS_API #ifdef XGETENV tempDir = XGETENV("TMPDIR"); if (tempDir == NULL) #endif { tempDir = "/tmp"; } XSTRLCPY(tempName, tempDir, sizeof(tempName)); XSTRLCAT(tempName, "/testsuite-output-XXXXXX", sizeof(tempName)); tempName_len = (int)XSTRLEN(tempName); tempName_Xnum = 6; #endif /* !USE_WINDOWS_API */ #ifdef HAVE_WNR if (wc_InitNetRandom(wnrConfig, NULL, 5000) != 0) { err_sys("Whitewood netRandom global config failed"); return -1237; } #endif /* HAVE_WNR */ StartTCP(); server_args.argc = argc; server_args.argv = argv; wolfSSL_Init(); #if defined(DEBUG_WOLFSSL) && !defined(HAVE_VALGRIND) wolfSSL_Debugging_ON(); #endif #if !defined(WOLFSSL_TIRTOS) ChangeToWolfRoot(); #endif #ifdef WOLFSSL_TIRTOS fdOpenSession(Task_self()); #endif server_args.signal = &ready; InitTcpReady(&ready); #ifndef NO_CRYPT_TEST /* wc_ test */ #ifdef HAVE_STACK_SIZE StackSizeCheck(&server_args, wolfcrypt_test); #else wolfcrypt_test(&server_args); #endif if (server_args.return_code != 0) return server_args.return_code; #endif /* Simple wolfSSL client server test */ #ifdef HAVE_STACK_SIZE StackSizeCheck(&server_args, (THREAD_RETURN (*)(void *))simple_test); #else simple_test(&server_args); #endif if (server_args.return_code != 0) return server_args.return_code; #if !defined(NETOS) /* Echo input wolfSSL client server test */ #ifdef HAVE_STACK_SIZE StackSizeCheck_launch(&server_args, echoserver_test, &serverThread, &serverThreadStackContext); #else start_thread(echoserver_test, &server_args, &serverThread); #endif /* Create unique file name */ outputName = mymktemp(tempName, tempName_len, tempName_Xnum); if (outputName == NULL) { printf("Could not create unique file name"); return EXIT_FAILURE; } ret = test_tls(&server_args); if (ret != 0) { cleanup_output(); return ret; } /* Server won't quit unless TLS test has worked. */ #ifdef HAVE_STACK_SIZE fputs("reaping echoserver_test: ", stdout); StackSizeCheck_reap(serverThread, serverThreadStackContext); #else join_thread(serverThread); #endif if (server_args.return_code != 0) { cleanup_output(); return server_args.return_code; } #endif /* !NETOS */ show_ciphers(); #if !defined(NETOS) ret = validate_cleanup_output(); if (ret != 0) return EXIT_FAILURE; #endif wolfSSL_Cleanup(); FreeTcpReady(&ready); #ifdef WOLFSSL_TIRTOS fdCloseSession(Task_self()); #endif #ifdef HAVE_WNR if (wc_FreeNetRandom() < 0) err_sys("Failed to free netRandom context"); #endif /* HAVE_WNR */ printf("\nAll tests passed!\n"); #else (void)argc; (void)argv; #endif /* !NO_WOLFSSL_SERVER && !NO_WOLFSSL_CLIENT */ return EXIT_SUCCESS; } #if !defined(NO_WOLFSSL_SERVER) && !defined(NO_WOLFSSL_CLIENT) && \ (!defined(WOLF_CRYPTO_CB_ONLY_RSA) && !defined(WOLF_CRYPTO_CB_ONLY_ECC)) /* Perform a basic TLS handshake. * * First connection to echo a file. * Second to tell TLS server to quit. * * @param [in,out] server_args Object sent to server thread. * @return 0 on success. * @return echoclient error return code on failure. */ static int test_tls(func_args* server_args) { func_args echo_args; char* myArgv[NUMARGS]; char arg[3][128]; /* Set up command line arguments for echoclient to send input file * and write echoed data to temporary output file. */ myArgv[0] = arg[0]; myArgv[1] = arg[1]; myArgv[2] = arg[2]; echo_args.argc = 3; echo_args.argv = myArgv; XSTRLCPY(arg[0], "testsuite", sizeof(arg[0])); XSTRLCPY(arg[1], "input", sizeof(arg[1])); XSTRLCPY(arg[2], outputName, sizeof(arg[2])); /* Share the signal, it has the new port number in it. */ echo_args.signal = server_args->signal; /* Ready to execute client - wait for server to be ready. */ wait_tcp_ready(server_args); /* Do a client TLS connection. */ #ifdef HAVE_STACK_SIZE fputs("echoclient_test #1: ", stdout); StackSizeCheck(&echo_args, echoclient_test_wrapper); #else echoclient_test(&echo_args); #endif if (echo_args.return_code != 0) return echo_args.return_code; #ifdef WOLFSSL_DTLS /* Ensure server is ready for UDP data. */ wait_tcp_ready(server_args); #endif /* Next client connection - send quit to shutdown server. */ echo_args.argc = 2; XSTRLCPY(arg[1], "quit", sizeof(arg[1])); /* Do a client TLS connection. */ #ifdef HAVE_STACK_SIZE fputs("echoclient_test #2: ", stdout); StackSizeCheck(&echo_args, echoclient_test_wrapper); #else echoclient_test(&echo_args); #endif if (echo_args.return_code != 0) return echo_args.return_code; return 0; } /* Show cipher suites available. */ static void show_ciphers(void) { char ciphers[WOLFSSL_CIPHER_LIST_MAX_SIZE]; XMEMSET(ciphers, 0, sizeof(ciphers)); wolfSSL_get_ciphers(ciphers, sizeof(ciphers)-1); printf("ciphers = %s\n", ciphers); } /* Cleanup temporary output file. */ static void cleanup_output(void) { remove(outputName); } /* Validate output equals input using a hash. Remove temporary output file. * * @return 0 on success. * @return 1 on failure. */ static int validate_cleanup_output(void) { #ifndef NO_SHA256 byte input[WC_SHA256_DIGEST_SIZE]; byte output[WC_SHA256_DIGEST_SIZE]; file_test("input", input); file_test(outputName, output); #endif cleanup_output(); #ifndef NO_SHA256 if (memcmp(input, output, sizeof(input)) != 0) return 1; #endif return 0; } /* Simple server. * * @param [in] args Object for server data in thread. * @return Return code. */ #ifdef HAVE_STACK_SIZE static THREAD_RETURN simple_test(func_args* args) #else static void simple_test(func_args* args) #endif { THREAD_TYPE serverThread; int i; func_args svrArgs; char *svrArgv[9]; char argvs[9][32]; func_args cliArgs; char *cliArgv[NUMARGS]; char argvc[3][32]; for (i = 0; i < 9; i++) svrArgv[i] = argvs[i]; for (i = 0; i < 3; i++) cliArgv[i] = argvc[i]; XSTRLCPY(argvs[0], "SimpleServer", sizeof(argvs[0])); svrArgs.argc = 1; svrArgs.argv = svrArgv; svrArgs.return_code = 0; #if !defined(USE_WINDOWS_API) && !defined(WOLFSSL_SNIFFER) && \ !defined(WOLFSSL_TIRTOS) XSTRLCPY(argvs[svrArgs.argc++], "-p", sizeof(argvs[svrArgs.argc])); XSTRLCPY(argvs[svrArgs.argc++], "0", sizeof(argvs[svrArgs.argc])); #endif /* Set the last arg later, when it is known. */ args->return_code = 0; svrArgs.signal = args->signal; start_thread(server_test, &svrArgs, &serverThread); wait_tcp_ready(&svrArgs); /* Setting the actual port number. */ XSTRLCPY(argvc[0], "SimpleClient", sizeof(argvc[0])); cliArgs.argv = cliArgv; cliArgs.return_code = 0; #ifndef USE_WINDOWS_API cliArgs.argc = NUMARGS; XSTRLCPY(argvc[1], "-p", sizeof(argvc[1])); (void)snprintf(argvc[2], sizeof(argvc[2]), "%d", (int)svrArgs.signal->port); #else cliArgs.argc = 1; #endif client_test(&cliArgs); if (cliArgs.return_code != 0) { args->return_code = cliArgs.return_code; #ifdef HAVE_STACK_SIZE return (THREAD_RETURN)0; #else return; #endif } join_thread(serverThread); if (svrArgs.return_code != 0) args->return_code = svrArgs.return_code; #ifdef HAVE_STACK_SIZE return (THREAD_RETURN)0; #endif } #endif /* !NO_WOLFSSL_SERVER && !NO_WOLFSSL_CLIENT */ /* Wait for the server to be ready for a connection. * * @param [in] args Object to send to thread. */ void wait_tcp_ready(func_args* args) { #if defined(_POSIX_THREADS) && !defined(__MINGW32__) PTHREAD_CHECK_RET(pthread_mutex_lock(&args->signal->mutex)); if (!args->signal->ready) PTHREAD_CHECK_RET(pthread_cond_wait(&args->signal->cond, &args->signal->mutex)); args->signal->ready = 0; /* reset */ PTHREAD_CHECK_RET(pthread_mutex_unlock(&args->signal->mutex)); #elif defined(NETOS) (void)tx_mutex_get(&args->signal->mutex, TX_WAIT_FOREVER); /* TODO: * if (!args->signal->ready) * pthread_cond_wait(&args->signal->cond, &args->signal->mutex); * args->signal->ready = 0; */ (void)tx_mutex_put(&args->signal->mutex); #else (void)args; #endif } /* Start a thread. * * @param [in] fun Function to executre in thread. * @param [in] args Object to send to function in thread. * @param [out] thread Handle to thread. */ void start_thread(THREAD_FUNC fun, func_args* args, THREAD_TYPE* thread) { #if defined(_POSIX_THREADS) && !defined(__MINGW32__) PTHREAD_CHECK_RET(pthread_create(thread, 0, fun, args)); return; #elif defined(WOLFSSL_TIRTOS) /* Initialize the defaults and set the parameters. */ Task_Params taskParams; Task_Params_init(&taskParams); taskParams.arg0 = (UArg)args; taskParams.stackSize = 65535; *thread = Task_create((Task_FuncPtr)fun, &taskParams, NULL); if (*thread == NULL) { printf("Failed to create new Task\n"); } Task_yield(); #elif defined(NETOS) /* This can be adjusted by defining in user_settings.h, will default to 65k * in the event it is undefined */ #ifndef TESTSUITE_THREAD_STACK_SZ #define TESTSUITE_THREAD_STACK_SZ 65535 #endif int result; static void * TestSuiteThreadStack = NULL; /* Assume only one additional thread is created concurrently. */ if (TestSuiteThreadStack == NULL) { TestSuiteThreadStack = (void *)malloc(TESTSUITE_THREAD_STACK_SZ); if (TestSuiteThreadStack == NULL) { printf ("Stack allocation failure.\n"); return; } } memset (thread, 0, sizeof *thread); /* first create the idle thread: * ARGS: * Param1: pointer to thread * Param2: name * Param3 and 4: entry function and input * Param5: pointer to thread stack * Param6: stack size * Param7 and 8: priority level and preempt threshold * Param9 and 10: time slice and auto-start indicator */ result = tx_thread_create(thread, "WolfSSL TestSuiteThread", (entry_functionType)fun, (ULONG)args, TestSuiteThreadStack, TESTSUITE_THREAD_STACK_SZ, 2, 2, 1, TX_AUTO_START); if (result != TX_SUCCESS) { printf("Ethernet Bypass Application: failed to create idle thread!\n"); } #else *thread = (THREAD_TYPE)_beginthreadex(0, 0, fun, args, 0, 0); #endif } /* Join thread to wait for completion. * * @param [in] thread Handle to thread. */ void join_thread(THREAD_TYPE thread) { #if defined(_POSIX_THREADS) && !defined(__MINGW32__) PTHREAD_CHECK_RET(pthread_join(thread, 0)); #elif defined(WOLFSSL_TIRTOS) while(1) { if (Task_getMode(thread) == Task_Mode_TERMINATED) { Task_sleep(5); break; } Task_yield(); } #elif defined(NETOS) /* TODO: */ #else int res = WaitForSingleObject((HANDLE)thread, INFINITE); assert(res == WAIT_OBJECT_0); res = CloseHandle((HANDLE)thread); assert(res); (void)res; /* Suppress un-used variable warning */ #endif } #ifndef NO_SHA256 /* Create SHA-256 hash of the file based on filename. * * @param [in] file Name of file. * @parma [out] check Buffer to hold SHA-256 hash. */ void file_test(const char* file, byte* check) { FILE* f; int i = 0, j, ret; wc_Sha256 sha256; byte buf[1024]; byte shasum[WC_SHA256_DIGEST_SIZE]; ret = wc_InitSha256(&sha256); if (ret != 0) { printf("Can't wc_InitSha256 %d\n", ret); return; } if( !( f = fopen( file, "rb" ) )) { printf("Can't open %s\n", file); return; } while( ( i = (int)fread(buf, 1, sizeof(buf), f )) > 0 ) { ret = wc_Sha256Update(&sha256, buf, i); if (ret != 0) { printf("Can't wc_Sha256Update %d\n", ret); fclose(f); return; } } ret = wc_Sha256Final(&sha256, shasum); wc_Sha256Free(&sha256); if (ret != 0) { printf("Can't wc_Sha256Final %d\n", ret); fclose(f); return; } XMEMCPY(check, shasum, sizeof(shasum)); for(j = 0; j < WC_SHA256_DIGEST_SIZE; ++j ) printf( "%02x", shasum[j] ); printf(" %s\n", file); fclose(f); } #endif #else /* SINGLE_THREADED */ int myoptind = 0; char* myoptarg = NULL; int main(int argc, char** argv) { func_args wolfcrypt_test_args; wolfcrypt_test_args.argc = argc; wolfcrypt_test_args.argv = argv; wolfSSL_Init(); ChangeToWolfRoot(); /* No TLS - only doing cryptographic algorithm testing. */ wolfcrypt_test(&wolfcrypt_test_args); if (wolfcrypt_test_args.return_code != 0) return wolfcrypt_test_args.return_code; wolfSSL_Cleanup(); printf("\nAll tests passed!\n"); return EXIT_SUCCESS; } #endif /* SINGLE_THREADED */